Method for orthodontia care

ABSTRACT

A composition for orthodontia care, a system including the composition, a kit including multiple systems and methods of using the composition, system, and kit and forming the composition, system, and kit are disclosed. The composition is designed to maintain contact with a portion of a surface for an extended period of time to, for example, prevent or reduce plaque and calculus buildup.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/800,632, entitled SYSTEM FOR MEASURABLY IMPROVING ORAL HEALTH AND METHOD OF USING SAME, filed May 15, 2006.

FIELD OF INVENTION

The present invention generally relates to methods for orthodontia care. More particularly, the invention relates to orthodontia care that includes preventing or reducing an amount of plaque, tartar and/or the like.

BACKGROUND OF THE INVENTION

Unfortunately, poor oral health affects millions of people every year. Poor oral health may result in symptoms ranging from bad breath, tooth decay, and tooth discoloration, to more serious health problems, such as gingivitis, periodontitis, and even general health problems, such as heart disease, stroke, poorly controlled diabetes and preterm labor.

The presence of dental plaque, or simply plaque, in an oral cavity can lead to such oral and general health problems. Plaque can be defined as an organized, coherent, gel-like or mucoid material that includes microorganisms in an organic matrix derived from saliva and extracellular bacterial products such as glucans, fructans, enzymes, toxins, and acids. Plaque may also contain other cells, such as desquamated epithelial cells, and inorganic components, such as calcium and phosphate. In general, dental plaque is a bacterial accumulation. Generally transparent and sticky, plaque accumulates around the teeth at the cervical margin, and then grows apically.

Once plaque forms on a surface, the plaque resists removal, and usually can be removed only by mechanical means, such as, for example, by brushing and flossing the affected areas. If not removed, however, the presence of plaque can give rise to tartar formation, gum bleeding, tooth decay, gingivitis, periodontitis, and other health problems.

Tartar is a hard, calcified plaque material that exhibits a yellowish or brownish color. Tartar forms as a result of minerals (e.g., those present in saliva and gum pockets) reacting with plaque material to form a rough calculus. Calculus generally arises from the nucleation of calcium phosphate, often in areas where the large salivary gland ducts secrete their saliva. As such, calculus can form on surfaces not covered by the oral mucosa (supragingival) or on surface located apical to the soft tissue margin of the gingiva (subgingival).

Tartar adheres to hard surfaces such as enamel, roots, and dental devices, such as orthodontia (e.g., braces), dentures, bridges, crowns, fillings, and the like, and is generally more difficult to remove than plaque. Brushing and flossing are normally not sufficient to remove tartar from a surface. If left untreated, tartar buildup can be problematic in several regards. For example, the rough, porous surface of tartar serves as a breeding ground for additional bacteria, which can calcify and form additional tartar. The bacteria growth can, in turn, lead to gum bleeding, tooth decay, gingivitis, periodontitis, and other health problems.

Gingivitis is the beginning stage of periodontitis and is often caused by the long-term effects of plaque and tartar buildup. Gingivitis is often characterized by red, swollen gums. A periodontal probe will often measure about 3 mm to about 5 mm in depth into the space between the teeth and gums at the early stages of gingivitis. As this stage, gingivitis can often be reversed with proper treatment.

Left untreated, gingivitis will likely progress to advanced periodontitis. At this stage of gum disease, plaque and tartar are typically present supragingival and subgingival and an infection has destroyed bone around a tooth. In general, at this stage, a family of chronic inflammatory infections are affecting the supporting tissues of the dentition. Teeth often become loose, and the pocket depth may range between about 5 mm and about 8 mm at this stage.

In addition to the health concerns, tartar is a cosmetic problem due to its discoloration of teeth. Namely, teeth can become yellowish or brownish color. Moreover, because the surface of tartar is rough and porous, the tartar absorbs colors from other sources (e.g., coffee, tea, tobacco, smoke, red wine and the like), and thus the presence of tartar exacerbates cosmetic tooth discoloration typically associated with such other sources.

Typical methods of preventing tartar buildup include brushing with a tartar control toothpaste. Although such toothpastes, if used regularly, may prevent buildup of additional tartar, the toothpastes are not thought to be effective at removing existing tartar from tooth enamel and dental device surfaces.

Methods of removing existing tartar typically include scaling or root planing, both of which are performed by dentists or hygienists with the aid of specialized tools. Although these techniques work well, they are relatively expensive and time consuming. Furthermore, various methods for inhibiting tartar may cause damage to tooth enamel and/or to dental devices and can be particularly difficult for subjects receiving orthodontia care.

Accordingly, improved methods preventing or reducing an amount of plaque, tartar and/or the like for those receiving orthodontia care are desired.

SUMMARY OF THE INVENTION

In accordance with various embodiments and aspects of the present invention, methods for orthodontia care are provided. Exemplary methods provide a relatively inexpensive and safe treatment for facilitating maintenance and improvement of oral health and/or hygiene, such as through the prevention and/or reduction of an amount of plaque, tartar and/or the like in connection with orthodontia. In addition, exemplary oral health methods are relatively easy to use or perform, do not require a visit to a dentist office, and do not damage the surface of orthodontia.

In accordance with various embodiments of the invention, a method for orthodontia care includes providing a composition and selectively applying the composition to a surface.

In accordance with exemplary embodiments of the invention, a method for orthodontia care includes providing a system, including a composition within a container, accessing the composition, and selectively applying the composition to an orthodontia surface.

In accordance with further embodiments of the invention, a method for orthodontia care includes providing a kit, including a plurality of systems, each system including a composition within a container, accessing the composition, and selectively applying the composition to a surface.

In accordance with various embodiments of the invention, the step of providing a system includes providing a viscous composition, including at least one active ingredient to reduce an amount of plaque, tartar and/or the like and a container configured to dispense the viscous composition.

In accordance further embodiments, the viscous composition is designed to maintain the active ingredient(s) in contact with a surface for an extended period of time. Suitable active ingredients include cetylpyridinium chloride (CPC), zinc salts, other antimicrobial agents, and other ingredients to prevent or reduce an amount of plaque, tartar and/or the like.

In accordance with yet further embodiments, the viscous composition further comprises a carrier having a thickening agent, wherein the composition is configured to maintain the active ingredient(s) in contact with a surface for an extended period of time. Exemplary thickening agents suitable for use in the viscous composition include hydroxyethylcellulose and other pharmaceutically acceptable thickeners. Exemplary compositions have a viscosity greater than about 20,000 centipoise (cp), preferably greater than about 30,000 cp, and more preferably greater than about 35,000 cp. The viscosity of the compositions may range from about 20,000 to about 250,000 cp, preferably about 25,000 to about 100,000, and more preferably about 30,000 to about 50,000 cp.

In accordance with further embodiments, the container configured to dispense the composition includes an expulsion or vessel portion, configured to store and facilitate expulsion or other like transfer of the composition, and an applicator portion, configured to receive the composition and to facilitate delivery of the composition to a surface. In accordance with various aspects of exemplary embodiments, the applicator portion includes an angled spout to facilitate targeted delivery of the composition—e.g., to a gum/tooth interface. In accordance with further aspects, an exemplary container is configured with an access/closure portion to maintain the composition within the container. In accordance with additional aspects of this embodiment, an exemplary container encases multiple doses of the composition. Alternatively, an exemplary container may encase a single dose. In accordance with yet further aspects, the container is configured to facilitate delivery of the composition to specific portions on a surface.

BRIEF DESCRIPTION OF THE DRAWINGS

The exemplary embodiments of the present invention will be described in connection with the appended drawing figures in which like numerals denote like elements and:

FIG. 1 illustrates a block diagram of an exemplary method for orthodontia care in accordance with an exemplary embodiment of the invention;

FIG. 2 illustrates an exemplary system for orthodontia care in accordance with an exemplary embodiment of the invention;

FIG. 3 illustrates another exemplary system for expulsion and application of a composition to an orthodontia surface in accordance with an exemplary embodiment of the invention;

FIG. 4 illustrates yet another exemplary system for use in accordance with various embodiments of the invention;

FIGS. 5A-5C illustrate, respectively, a left view, a front view, and a right view of an exemplary container for use in accordance with an exemplary embodiment of the invention; and

FIG. 6 illustrates an exemplary kit, including a plurality of systems, for use in accordance with yet another exemplary embodiment of the invention.

Elements in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. The dimensions of some of the elements in the figures may be exaggerated relative to other elements to help to improve understanding of embodiments of the present invention.

DETAILED DESCRIPTION

The present invention provides methods for orthodontia care. More particularly, the invention provides methods of using a composition, system, and/or kit to prevent and/or reduce an amount of plaque, tartar and/or the like, in connection with orthodontia treatment. The methods for orthodontia care disclosed herein can be used to improve oral health of various animals, and are particularly well suited for humans by application to a surface.

As used throughout this application, the term “surface” includes any dental device surface on which plaque, tartar, or gum disease may form, such as orthodontia (e.g., braces, retainers, etc.), dentures, bridges, crowns, fillings, teeth, gums, and the like.

The invention is described herein in terms of various functional components, compositions and processing steps. It should be appreciated that such components, compositions and steps may be realized by any number of structural components and compositional constituents configured to perform the specified functions. For example, the methods herein may employ various compositions and containers for use with systems and kits for orthodontia care; the specific examples as described herein are merely indicative of exemplary applications for the invention.

In accordance with exemplary embodiments, with reference to FIG. 1, a method 100 for orthodontia care includes providing a composition, system (a composition within a container), and/or kit (a plurality of systems) (step 102); accessing the composition if within a system (step 104); and selectively applying the composition to a surface (step 106).

FIG. 2 illustrates a system 200 for use in accordance with various embodiments of the present invention. For example, system 200 can be used in connection with method 100 to facilitate prevention and/or reduction of an amount of plaque, tartar and/or the like in connection with orthodontia care. In accordance with various exemplary aspects of the illustrated embodiment, system 200 includes a composition 202 and container 204 for selectively applying composition 202 to a surface.

In accordance with various exemplary embodiments, a composition (e.g., composition 202), suitable for use with systems (e.g., systems 200, 300, 400) of the present invention comprises an active ingredient and a viscous carrier. In this case, composition 202 is configured to maintain the active ingredient in contact with a surface for an extended period of time to allow the active ingredient(s) to remain in contact with the surface for an extended period.

Exemplary active ingredients suitable for use with systems of the invention include one or more of the following: cetylpyridinium chloride (CPC), dicalcium phosphate dehydrate, hydrogen peroxide, sanguinaria extract, sodium bicarbonate, sodium lauryl sulfate, sodium fluoride, stannous fluoride, sodium monofluorophosphate (MFP), zinc salts such as zinc chloride, zinc acetate, zinc citrate, zinc oxide and zinc gluconate, alkyl dimethyl amine oxide, alkyl dimethyl glycine, eucalyptol, menthol, methyl salicylate, thymol, sodium citrate, peppermint oil, sage oil, polymethylsiloxane, polxamer, and stannous pyrophosphate. Other now known or hereafter devised actives may also be used. For example, any agent, which alone or in combination is able to prevent or alleviate the severity of problems associated with dentition may be utilized. Such may include anti-caries agents and the like; agents useful in reducing tooth hypersensitivity, such as potassium nitrate, strontium chloride and/or the like; and/or plaque and calculus reducing agents, such as, for example, chlorhexidine, quaternary ammonium compounds (e.g. benzethonium chloride, domphen bromide, etc.), triclosan, herbal compounds (e.g. sanguinarine), stannous salts, complex phosphates (e.g., pyrophosphates), SLS (e.g. sodium lauryl sulfate), hydrogen peroxide, and/or the like.

An amount of the active ingredient for use within compositions suitable for uses with the invention varies in accordance with the dosage size and particular ingredient(s). In general, each active or actives selected will be used in a suitably effective amount, generally on the order of less than about 10 wt %, and more preferably 5 wt % or less. An amount of active may also be desirably selected to be within government guidelines, such as guidelines by the Food and Drug Administration in the USA. In particularly preferred compositions, the active ingredient is present in an amount of about 0.001 wt % to about 1.5 wt %, within an amount of about 0.025 wt % to about 1.0 wt %, or even within an amount about 0.05 wt % to about 0.7 wt %. All percentages set forth herein are in weight percent of the total composition, unless otherwise indicated.

In accordance with one preferred exemplary embodiment, the active ingredient(s) include CPC. In one case, CPC is present in an amount of about 0.001% to about 1%, in an amount of about 0.01% to about 0.5%, or even in an amount of about 0.05% to about 0.25% or about 0.045% to about 0.1%. In accordance with another exemplary embodiment, the active ingredient(s) also include zinc gluconate. In one case, zinc gluconate is present in an amount of about 0.001% to about 1.5%, in an amount of about 0.01% to about 1.0%, or even in an amount of about 0.05% to about 0.75%.

In accordance with an exemplary embodiment, composition 202 also includes a thickener to obtain the desired viscosity. Suitable thickening agents include substances which increase the viscosity of composition 202, cause composition 202 to gel or coagulate, or the like, such as food-grade or pharmaceutical-grade thickeners, including, for example, hydroxyethylcellulose, hydroxypropyl methylcellulose, carrageenan, guar gum, methylcellulose, methyethylecellulose, acceptable non-ionic thickeners, and the like. The thickener may be present in an amount of about 0.01% to about 10%, in an amount of about 0.1% to about 7%, or even in an amount of about 1% to about 5% or about 0.5% to about 3%.

Composition 202 may also include a humectant such a glycerin, which may be present in an amount of about 0.01% to about 15%, preferably about 0.1% to about 10%, and more preferably about 1% to about 7%. When used, the humectant may facilitate maintaining composition 202 in a liquid form and may help maintain a desired viscosity. In accordance with specific aspects, glycerin facilitates maintaining one or more of the active ingredients in an ionic form and/or facilitates the transport of the active ingredients through composition 202.

The composition may also include a diluent. Exemplary diluents suitable for use with the present composition include Sorbitol, Xylitol, Mannitol, water, alcohols, and oils. In accordance with particular examples of the invention, the composition includes purified water in an amount of about 80% to about 99%, preferably about 85% to about 95%, and more preferably about 88% to about 92%.

Composition 202 may also include sugar alcohols such as sorbitol and xylitol, monnital, lactitol, and the like that act as a sweetener and also as a humectant and/or emulsifier and/or diluent. When used, sorbitol or other sugar alcohol can be present in an amount of about 0.001% to about 0.5%, in an amount of about 0.01% to about 0.1%, or even in an amount of about 0.025% to about 0.075%.

Composition 202 may also include a natural or artificial sweetener such as cyclamates, sucralose, saccharin (e.g., sodium or calcium), ace-k, or aspartame which, when included in composition 202, can be present in an amount of about 0.001% to about 1.5%, in an amount of about 0.01% to about 1%, or even in an amount of about 0.25% to about 0.75%.

Colorants may also be added to composition 202. For example, composition 202 can include colorants, such that when composition 202 is applied to or proximate the gingiva, composition 202 has a color indicative of healthy gingiva—e.g., composition 202 can be pink in color. Such a composition having a color indicative of healthy gingiva can provide added incentive to users to continue using composition 202, which in turn promotes improved health care and hygiene. Colorants may be present in any desired amount. For example, the colorants may include Red #33 and/or Red #40, available from Pylam in an amount of about 0.000005% to about 1%, preferably about 0.00050% to about 0.5%, and more preferably about 0.001% to about 0.1%. Additionally or alternatively, colorants, which are indicative of flavor may be added to the composition. Examples include FD&C Blue #1, D&C Green #5, FD&C Yellow #5, and FD&C Yellow #6.

Composition 202 may also include flavorants such as cinnamon oil, clove oil, mints, anise, citrus, fruits, and the like, which, when included in the formula are present in an amount of about 0.01% to about 2%, in an amount of about 0.01% to about 1%, or even in an amount about of about 0.1% to about 0.5%.

Essential oils such as cinnamon bark oil and clove bud oil may be particularly advantageous because they exhibit additional desirable qualities. For example, cinnamon bark oil exhibits antibacterial, antiseptic, antiviral, antispasmodic, antifungal, sedative and analgesic properties and clove bud oil has local anesthetic, antiseptic, antibacterial, and stimulating properties.

Composition 202 is configured to maintain contact with a surface for an extended period of time, which has several advantages over traditional compositions. Composition 202 preferably exhibits good microadhesion, and moreover, composition 202 preferably is quite viscous. As such, in general, relatively small amounts of composition 202 and consequently the active agent(s) can be used to effectively reduce an amount of plaque, tartar and/or the like. Additionally, the relatively high viscosity allows for relatively select placement of the composition on, for example, an orthodontia surface.

Exemplary compositions have a viscosity greater than about 20,000 cp, preferably greater than 30,000 cp, and more preferably greater than about 35,000 cp. By way of more particular examples, the viscosity of compositions range from about 20,000 cp to about 250,000 cp, preferably about 25,000 cp to about 100,000 cp, and more preferably about 30,000 cp to about 50,000 cp, and yet more preferably about 35,000 cp to about 45,000 cp. The viscosity values as set forth herein are measured using a Brookfield, Model DV-II+ Pro viscometer, spindle # 6, 10 RPM for 90 seconds at 25 C.

In accordance with other exemplary embodiments, composition 202 includes multiple active ingredients in a carrier. For example, composition 202 can include a plurality of any active ingredients and a carrier in the weight percents disclosed herein. Composition 202 may also include any of the optional ingredients, such as thickeners, sweeteners, flavorants, and colorants as set forth herein. For example, in accordance with an exemplary embodiment, composition 202 includes CPC and zinc gluconate as the active ingredients, wherein the CPC is present in an amount of about 0.001% to about 1%, in an amount of about 0.01% to about 0.5%, or even in an amount of about 0.05% to about 0.25% or about 0.045% to about 0.1%; and wherein the zinc gluconate is present in an amount of about 0.001% to about 1.5%, in an amount of about 0.01% to about 1.0%, or even in an amount of about 0.05% to about 0.75%.

A pH of a composition in accordance with various embodiments of the invention is preferably between about 4-10, preferably about 4-7, and more preferably about 5-5.4.

Composition 202 may be formed by adding a humectant (e.g., glycerin) to a first mixing vessel and the adding a thickener (e.g., hydroxyethylcellulose) to the humectant and mixing until a uniform, lump-free slurry forms. The slurry should not sit for too long at this stage, or it may become cement-like in texture and viscosity. In a second mixing vessel, add a diluent (e.g., water) and add the humectant/thickener slurry slowly (over a period of a few hours) to the diluent and mix until a smooth mixture is obtained. Once the gum is hydrated, add any sugar alcohol, sweetener, and colorant to the mixture and mix until each is dissolved. Then, add a preservative and mix until dissolved and uniform. Finally, add any oils and mix until the oils are dispersed in the solution and add the actives and mix until dispersed.

Referring again to FIG. 2, container 204, for use with various embodiments of the invention, is configured for containment and temporary storage of composition 202, i.e., storage until initiation of the treatment process, and for expulsing, transferring or otherwise forcing composition 202 to a surface to achieve orthodontia care. Container 204 can be configured in various manners for application of composition 202 to a surface. For example, container 204 can comprise various sizes, volumes, shapes and configurations for facilitating transfer of composition 202 to a surface, depending upon, for example, the purpose for which composition 202 is being applied.

It may be desirable to have a multi-dose applicator for repeated (e.g., daily) application of composition 202. Alternatively, a single-dose applicator may be desirable for limited application (e.g., travel), or for application of composition 202 to specific problem areas, such as targeted application to dental devices.

In accordance with specific examples of various embodiments, container 204 is configured to store about seven doses, about four doses, about two doses, or about one dose. However, the invention is not necessarily limited to these container sizes.

A dose size may vary in accordance with several factors, such as the particular ingredients, the dilution of the composition, and the like. Exemplary dose sizes for purpose of illustration range from about 1 mg to about 6 mg, preferably about 2 mg to about 5 mg, and more preferably about 3 mg to about 4 mg.

With continued reference to FIG. 2, container 204 includes expulsion or vessel portion 206, configured to contain or store composition 202 and to facilitate expulsion of composition 202, and applicator portion 208, configured to receive composition 202 from expulsion portion 206 and to facilitate application or delivery of composition 202 to a selected surface, for example, the composition can be directly applied to braces, trays, and other dental devices placed within an oral cavity.

In accordance with particular aspects of this embodiment, portion 206 is formed of a resiliently deformable material that is capable of retaining and returning to its original shape when not under pressure. In accordance with other aspects, portion 206 is formed of material that does not return to its original shape. Exemplary resilient materials suitable for portion 206 include low density polyethylene material, high density polyethylene, medium density polyethylene, linear low density polyethylene, polyvinyl chloride, K resin, polyethylene terephthalate and copolyesters, polypropylene, surlyn, silicones and other thermostatics, metal or alloy, and the like. Portion 206 may be opaque, transparent, or semitransparent. An advantage of forming vessel portion 206 of transparent or semitransparent material is that an amount of composition 202 within vessel portion 206 can be ascertained when the portion is formed of such material. Material used to form vessel portion 206 may also include UV protection additives, colorants, or the like, and is preferably FDA-approved material.

In accordance with various embodiments of the invention, expulsion or vessel portion 206 includes resilient vial 210 and a neck 212. Resilient vial 210 acts as a reservoir for composition 202 and also facilitates expulsion of composition 202 from system 200 when pressure is applied to an external surface of vial 210. As illustrated, vial 210 may also include graduations 226 to, for example, illustrate a number of doses used and/or a number of doses remaining. Neck 212 is configured to couple applicator or spout portion 208.

Although illustrated as substantially tubular, with a sealed end 214, resilient vial 210 may be of any suitable shape or configuration. For example, vial 210 may be pyramidal, cone shaped, fluted, or have a rectangular cross section. Similarly, end portion 214 may be of any suitable shape or configuration, such as linear (e.g., a crimped or heat-sealed end) or the like. In general, preferred shapes of vial 210 conserve material used to form the vial, allow for easy dispensing of composition 202, are easy to produce, and produce relatively little scrap material during production.

Container 204 can also be configured to allow a user to suitably control the rate of expulsion into applicator portion 208. For example, in accordance with an exemplary embodiment, container 204 includes a transition region 216 to facilitate flow between vial 210 and applicator portion 208. Transition region 216 may be of any suitable shape, such as frustro-conical, fluted, semi-spherical, and the like.

Applicator portion 208 may be formed of any of the material described above in connection with portion 206. Portion 208 is suitably configured for selective and/or controlled delivery of composition 202 to a target area on a surface. In accordance with various embodiments of the invention, applicator portion 208 is configured to couple (e.g., detachably or otherwise) to expulsion portion 206. Alternatively, portion 208 is configured as a molded or otherwise unitary structure with expulsion portion 206, as described in more detail below. When separately formed, portions 206 and 208 may be coupled using screwed, press-fit, clamped or other techniques to permanently, semi-permanently or removably attached portions 206 and 208.

In accordance with an exemplary embodiment, applicator portion 208 comprises a structure 220 to allow composition 202 to be forced through an applicator tip 218 and onto a surface. Structure 220 may be passive and substantially rigid to allow composition to flow from portion 206 to tip 218. Alternatively, structure 220 and/or applicator portion 208 may be configured as less-rigid to allow for expulsion of any remaining composition within applicator portion 208 to be squeezed or otherwise delivered or applied by applicator tip 218 onto a surface.

As illustrated structure 220 may form an angle of about zero degrees with respect to a centerline through expulsion portion 206. Alternatively, structure 220 may form other angles, ranging from about zero degrees to about 90 degrees. In further accordance with the illustrated embodiment, tip 218 forms an angle of about 45 degrees relative to the centerline of component 220; however, tip 218 may suitably form other angles relative to component 220.

Tip 218 is generally configured to facilitate placement and/or controlled flow of material dispensed from system 200. Tip 218 may be substantially cylindrical. Alternatively, tip 218 may have a square, rectangular, ellipse, or other cross-sectional configuration. Tip 218 may also include a weakened section 224, which may be formed, for example, by scarring a portion of tip 218. Weakened section 224 may facilitate rupturing tip 218 at weakened section 224, which in turn allows for a predicable cross section of tip 218 and thus a relatively predictable flow of material dispensed from system 200. In accordance with one particular example, tip 218 includes a substantially constant cross-section, which makes the flow more predictable, even if tip 218 is ruptured away from weakened area 224.

End portion 222 forms a sealed end at one end of tip 218. In accordance with various embodiments of the invention, end portion 222 is flat and wider at an exterior portion than an interior portion, such that end portion 222 is wider in at least one direction than tip 218. Having end portion 222 wider than tip 218 allows a user to grip end 222 to, for example, tear or sever tip 218 at weakened section 224. However, end 222 may be alternatively configured as, for example, a semisphere or other suitable shape. Alternatively, tip 218 and end portion 222 may be configured, such that end 222 can reattach to tip 218.

Spout portion 208 may be formed using a variety of materials, such as any of the materials described above in connection with vessel portion 206. However, because spout portion 208 may be formed separately from vessel portion 206, it need not be formed of the same material.

In accordance with one embodiment of the invention, vessel portion 206 and spout portion 208 are configured to sealably (and optionally rotatably) couple to each other. In the illustrated embodiment, portion 206 and 208 are threadedly coupled to each other. In accordance with other embodiments, one of portions 206 and 208 includes a protrusion and the other of portion 206, 208 includes a recess to receive the protrusion, such that the protrusion and recess hold vessel portion 206 and spout portion 208 together, while optionally allowing the two portions to rotate about an axis, with respect to each other. In accordance with another embodiment of the invention, portions 206, 208 are configured to allow vessel portion 206 and spout portion 208 to be detachably coupled to each other. In this case, neck 212 and spout 208 may be snap-fit together as described above, or portions 206 and cap 208 may engage using lug or interference-fit technology to sealably attach to each other.

FIG. 3 illustrates another system 300 for use in accordance with additional embodiments of the invention. As illustrated, system 300 includes a vessel portion 302, including a neck 304, a cap 306, and a detachable applicator 308. System 300 is similar to system 200, except system 300 includes resealable cap 306 and detachable applicator 308, rather than applicator portion 208. System 300 may be formed of any of the materials noted above in connection with system 200, and may include graduations 310 to indicated a number of doses used and/or a number of remaining doses, as described above.

Cap 306 can be removably attached to vessel portion 302 using a variety of techniques. For example, cap 306 may be threadedly attached to portion 302. Alternatively, cap 306 and portion 302 may be coupled using snap-fit, lug, interference-fit technology, or similar technologies. In accordance with one specific example of this embodiment, neck 304 includes exterior threads and cap 306 includes interior threads to threadedly engage with neck 304.

Similarly, applicator portion 308 may couple to vessel 302 in a variety of ways, such as threaded, snap-fit, lug, or similar type connections. By way of particular example, applicator 308 threadedly engages with an interior portion of neck 304.

Applicator 308 includes a first portion 312 and a second or tip portion 314. As illustrated, tip portion 314 is angled relative to a centerline first portion 312; however such is not required for practice of the present invention. Exemplary angles range from about zero to about ninety degrees, and is preferably about forty-five degrees relative to the centerline.

FIG. 4 illustrates yet another system 400 for use in accordance with additional embodiments of the invention. System 400 is similar to system 300, except system 400 includes an applicator 402, rather than applicator 308. Applicator 402 is similar to applicator 308, except applicator 402 does not include an angled tip.

FIGS. 5A-5C illustrate left, front, and right views of yet another system 500 for use in accordance with various embodiments of the invention. System 500 is similar to systems 200-400, except system 500 is designed as a unitary system, having an integrated vessel 502 and spout 504, including a severable end 506 and scarred section 508.

Although not illustrated, systems in accordance with various embodiments of the invention may include tamper-resistant features. For example, system 200 may include a seal formed over neck 212, using, for example plastic or foil glued to or otherwise adhered to a top portion of neck 212. Alternatively, after spout portion 208 is attached to vessel portion 206, the two portions may be fused together using heat sealing and/or adhesive techniques.

FIG. 6 illustrates a kit 600, including multiple systems, for use in accordance with yet additional embodiments of the invention. As illustrated, kit 600 includes four systems; however, systems in accordance with other embodiments of the invention may include a different number, e.g., 1, 2, 4, 7, 10, or the like number of systems.

Referring back to FIG. 1, providing a system, in accordance with step 102, can include any method now known or hereinafter devised for filling a container with a fluid. With reference to FIG. 2, a composition 202 can suitably be filled in one end of a container 204 and then sealed to maintain composition 202 within container 204. Alternatively, with momentary reference to FIG. 3, vessel 302 may be filled with composition 202 and then sealed with cap 306. In addition, filling container 204 with composition 202 may include filling a single and/or daily dose of composition 202, or multiple doses of composition 202.

Accessing composition 202 within container 204, in accordance with step 104, suitably comprises removal of an access, closure device or component from container 204. For example, in accordance with an exemplary embodiment, accessing composition 202 within container 204 comprises detachably removing an access component, e.g., end portion 222, to provide an access to composition 202.

Selectively applying composition 202 to a surface, in accordance with step 106, can suitably include expulsing, transferring or otherwise forcing composition 202 from a vial 210 to an applicator portion 208 of container 204. For example, in accordance with an exemplary embodiment, composition 202 can be “squeezed” from an expulsion portion 206, into applicator portion 208, through an applicator tip 218, and onto a targeted surface.

Regular and/or systematic use of methods in accordance with various embodiments of the invention result in prevention and/or reduction of an amount of plaque, tartar and/or the like in connection with orthodontia care.

SPECIFIC EXAMPLES

The following non-limiting examples illustrate improvement in oral health using a system, kit, and method in accordance with various embodiments of the invention. These examples are merely illustrative, and it is not intended that the invention be limited to the examples. Kits, systems, and compositions in accordance with the present invention may include the ingredients listed below as well as additional and/or alternative inert materials, preservatives, and other constituents typically found in compositions for promoting oral health. In the case where exemplary inert materials and/or preservatives are listed, these ingredients are merely exemplary, and it is understood that other similar ingredients may be substituted for the materials listed in the examples below.

Example 1

A pale light pink viscous gel, having a viscosity of about 40,000 cp, with cinnamon-clove characteristic odor and taste is formed by admixing the following ingredients, as described above, in the amounts shown. The composition was sealed in system 500, illustrated in FIG. 5. TABLE 1 Exemplary Ingredient Supplier Weight % Wt % Range Purified Water Copacker 91.504  80-99 Glycerin USP Acme-Hardesty 5.000  0.01-15 HEC 250 HX Hercules-Aqualon 2.000  0.01-10 Sorbitol Roquette 0.050 0.001-0.5 Sucralose Tate & Lyle 0.400 0.001-1.5 Cetylpyridinium Dishman 0.100 0.001-1   Chloride Pharmaceuticals Zinc Gluconate American 0.592 0.001-1.5 USP International Cinnamon Bark Spectrum 0.250 0.001-2   (Oil) Clove Bud (Oil) Spectrum 0.005 0.001-2   Red #40 (1% sol.) Pylam 0.099 0.000005-1   

A clinical study, including 24 subjects, evaluating the efficacy of the composition of Table 1 was conducted. Subjects were scored at baseline, three weeks, and at six weeks using the Low and Silness Gingival Index (1963) (GI) and the Turesky Modification (1970) of the Quigley Hein Plaque Index (1962) (PI) indices. Plaque and calculus quality, thickness, maturity, and mass were also observed at these times.

At the end of a three-week period, there was an observed lessening or reduction of plaque quality, thickness, mass, and maturity; the lessening was greater (greater decrease) for those using the composition of Table 1, compared to a placebo. The observance that plaque quality was reduced is important because the presence of actively growing plaque bacteria (biofilm) is important in the development of inflammation, which leads to gingivitis and periodontitis.

In addition, at the end of the three-week period a lessening of the quality of calculus was also observed. A general improvement of gingival health was also observed. An extremely thin, slightly detached layer of epithelial cells was also found on the surface of attached gingival surfaces at the marginal ridge, close to the areas where plaque and tartar was likely disrupted off the teeth with subjects using the composition of Table 1, which indicated promotion of faster healing of gingival tissues.

Subjects at the end of the six-week period showed a statistically significant (p-value=0.05) greater performance than a placebo in both absolute (0.741) and percentage (40%) improvement in GI. There was also a directional improvement for PI in the absolute (1.805) and percent (49%) improvement for those using the formula of Table 1 compared to a placebo. There was also approximately a 50% reduction in plaque thickness at the end of the six-week period in about 73% of the subjects that were checked for plaque quality or thickness.

Example 2

A pale light pink viscous gel, having a viscosity of about 40,000 cp, with cinnamon-clove characteristic odor and taste is formed by admixing the following ingredients, as described above, in the amounts shown. The composition was sealed in system 500, illustrated in FIG. 5. TABLE 2 Exemplary Ingredient Supplier Weight % Wt % Range Purified Water Copacker 92.096    80-99 Glycerin USP Acme-Hardesty 5.000  0.01-15 HEC 250 HX Hercules-Aqualon 2.000  0.01-10 Sorbitol Roquette 0.050   0.001-0.5 Sucralose Tate & Lyle 0.400   0.001-1.5 Cetylpyridinium Dishman 0.100 0.001-1 Chloride Pharmaceuticals Cinnamon Bark Spectrum 0.250 0.001-2 (Oil) Clove Bud (Oil) Spectrum 0.005 0.001-2 Red #40 (1% sol.) Pylam 0.099 0.000005-1  

A clinical study, including 22 subjects, evaluating the efficacy of the composition of Example 2 was conducted. The Low and Silness Gingival Index (1963) (GI) for subjects using the formula of Table 2 for a six-week period showed a greater performance than a placebo in both absolute (0.405) and percentage (22%) improvement in GI. There was also a directional improvement for the Turesky Modification (1970) of the Quigley Hein Plaque Index (1962) (PI) in the absolute (1.489) and percent (41%) improvement for those using the formula of Table 2 compared to a placebo.

Example 3

A clinical study comparing V-MI scores of subjects using the composition of Table 1 was conducted to evaluate calculus dissolution. During the three-month study, the subjects were instructed to brush with toothpaste twice daily and apply the composition prior to retiring. Subjects did not receive professional cleaning just prior to participating in the study. The object of the study was to determine the efficacy of the composition and use thereof at removing calculus.

For 18 subjects using a system including the composition of Table 1, there was a statistically significant difference between original V-MI scores and V-MI scores (51%) after three months of treatment with the product, which indicates the system is effective at calculus dissolution.

Example 4

In another clinical study, 50 subjects received professional prophylaxis, including scaling and polishing, to remove supragingival calculus, extrinsic stain, and plaque deposits from the mandibular anterior teeth and initial V-MI measurements at 18 VM sites per subject were recorded prior to the study to evaluate calculus inhibition. Subjects were requested to refrain from flossing the mandibular 6 anterior teeth and place the composition between and around those teeth using system 500, illustrated in FIG. 5. At the end of a three-month period, VM-I measurements for the same teeth were recorded and analyzed using analysis of covariance. The V-MI scores at the end of the three-month period were statistically significantly lower (59%) than the initial V-MI scores. The study indicated that the system was effective at Calculus inhibition.

Example 5

A clinical study comparing V-MI scores of 40 subjects using the composition of Table 1 was conducted to evaluate disruption or dissolution of existing calculus bridges. During a three-month study, the subjects were instructed to brush with toothpaste twice daily and apply the composition prior to retiring.

At the end of the three-month study, a statistically significant difference (30% difference) of before and after scores of the subjects using the composition of Table 1 was observed. In addition, a statistically significant difference (26% difference) of the 40 subjects compared to 40 subjects using a placebo was observed, and a statistically significant difference (99%) between the change in scores before and after the study between the placebo group and the group using a system including the composition of Table 1.

Example 6

A clinical study comparing Gingivitis Index (GI), Plaque Index (PI), and Bleeding Index (BI) scores using the composition of Table 1 was conducted. Forty-five subjects were evaluated over a period of three months and 39 subjects were evaluated over a period of six months. During the study, the subjects were instructed to brush with toothpaste twice daily and apply the composition prior to retiring. The subjects were asked not to use other oral hygiene products. After a baseline examination, all subjects received dental prophylaxis.

At the end of the three-month period, a 16% reduction in GI was observed, a 26% reduction in PI was observed, and a 68% reduction in BI was observed. At the end of the six-month period, a 32% reduction in GI was observed, a 33% reduction in PI was observed, and a 78% reduction in BI was observed. All reductions are statistically significant (p-Value<0.01) using the Mann-Whitney Rank Sum Test.

Example 7

A pale light pink viscous gel, having a viscosity of about 40,000 cp, with cinnamon-clove characteristic odor and taste is formed by admixing the following ingredients, as described above, in the amounts shown. The composition was sealed in system 500, illustrated in FIG. 5. TABLE 3 Exemplary Ingredient Supplier Weight % Wt % Range Purified Water Copacker 91.604  80-99 Glycerin USP Acme-Hardesty 5.000  0.01-15 HEC 250 HX Hercules-Aqualon 2.000  0.01-10 Sorbitol Roquette 0.050 0.001-0.5 Sucralose Tate & Lyle 0.400 0.001-1.5 Zinc Gluconate American 0.592 0.001-1.5 USP International Cinnamon Bark Spectrum 0.250 0.001-2   (Oil) Clove Bud (Oil) Spectrum 0.005 0.001-2   Red #40 (1% sol.) Pylam 0.099 0.000005-1   

A clinical study comparing Gingivitis Index (GI), Plaque Index (PI), and Bleeding Index (BI) scores using the composition of Table 3 was conducted. Fifty-one subjects were evaluated over a period of three months and forty-three people were evaluated over a period of six months. During the study, the subjects were instructed to brush with toothpaste twice daily and apply the composition prior to retiring. The subjects were asked not to use other oral hygiene products. After a baseline examination, all subjects received dental prophylaxis.

At the end of the three-month period, a 11% reduction in GI was observed, a 17% reduction in PI was observed, and a 58% reduction in BI was observed. At the end of the six-month period a 16% reduction in GI was observed, a 21% reduction in PI was observed, and a 52% reduction in BI was observed. All reductions are statistically significant (p-Value<0.01) using the Mann-Whitney Rank Sum Test.

Example 8

A clinical study comparing Gingivitis Index (GI), Plaque Index (PI), and Bleeding Index (BI) scores using the composition of Table 2 was conducted. Fifty subjects were evaluated over a period of three months and 44 people were evaluated over a period of six months. During the study, the subjects were instructed to brush with toothpaste twice daily and apply the composition prior to retiring. The subjects were asked not to use other oral hygiene products. After a baseline examination, all subjects received dental prophylaxis.

At the end of the three-month period, a 18% reduction in GI was observed, a 25% reduction in PI was observed, and a 65% reduction in BI was observed. At the end of the six-month period, a 31% reduction in GI was observed, a 32% reduction in PI was observed, and a 75% reduction in BI was observed. All reductions are statistically significant (p-Value<0.01) using the Mann-Whitney Rank Sum Test.

Example 9

A clinical study comparing V-MI scores using a placebo and the compositions of Tables 1 and 4 was conducted. Data was recorded at baseline, 40 days and 90 days. Subjects were provided coded tubes of the gel formulation to which they were assigned. The subjects were instructed to apply the gel daily, once before going to bed. The gel was applied between the teeth at the gum margin all along the arch. After applying, the subjects were instructed to spit out any excess and not to eat or drink prior to an extended period of rest. TABLE 4 Exemplary Ingredient Supplier Weight % Wt % Range Purified Water Copacker 91.504    80-99 Glycerin USP Acme-Hardesty 5.000  0.01-15 HEC 250 HX Hercules-Aqualon 2.000  0.01-10 Sorbitol Roquette 0.050   0.001-0.5 Sucralose Tate & Lyle 0.400   0.001-1.5 Cetylpyridinium Dishman 0.100 0.001-1 Chloride Pharmaceuticals Zinc Gluconate American 1.184   0.001-1.5 USP International Cinnamon Bark Spectrum 0.250 0.001-2 (Oil) Clove Bud (Oil) Spectrum 0.005 0.001-2 Red #40 (1% sol.) Pylam 0.099 0.000005-1  

After 90 days, users of the composition of Table 4 had 19% better V-MI scores, and users of the composition of Table 1 had 10% better V-MI scores. Following treatment, users of the composition of Table 1 had 0.31 better absolute V-MI scores and users of the composition of Table 4 had 0.32 better absolute V-MI scores.

The present invention has been described above with reference to various exemplary embodiments. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope of the present invention. For example, the various operational steps, as well as the components for carrying out the operational steps, may be implemented in alternate ways depending upon the particular application or in consideration of any number of cost functions associated with the operation of the system, e.g., various of the steps may be deleted, modified, or combined with other steps. These and other changes or modifications are intended to be included within the scope of the present invention, as set forth in the following claims. 

1. A method of providing orthodontia care, the method comprising the steps of: providing a system, including a composition within a container wherein the composition comprises a zinc salt and an active ingredient for orthodontia care and wherein the container comprises a vial and an applicator portion; accessing the composition; and selectively applying the composition onto a surface in connection with orthodontia care.
 2. The method of claim 1, wherein the viscosity of the composition is greater than about 20,000 centipoise.
 3. The method of claim 1, wherein the viscosity of the composition is about 25,000 to about 100,000 centipoise.
 4. The method of claim 1, wherein the viscosity of the composition is about 30,000 to about 50,000 centipoise.
 5. The method of claim 1, wherein said active ingredient comprises at least one of cetylpyridinium chloride, dicalcium phosphate dehydrate, hydrogen peroxide, sanguinaria extract, sodium bicarbonate, sodium lauryl sulfate, stannous fluoride, alkyl dimethyl amine oxide, alkyl dimethyl glycine, eucalyptol, menthol, methyl salicylate, thymol, sodium citrate, peppermint oil, sage oil, polymethylsiloxane, polxamer, and stannous pyrophosphate.
 6. A method to reducing an amount of plaque in connection with orthodontia care, the method comprising the steps of: providing a kit, including a plurality of systems, wherein each system includes a composition within a container and wherein the composition comprises an active ingredient for orthodontia care and has a viscosity greater than about 20,000 centipoise; accessing the composition; and selectively applying the composition to a surface.
 7. The method of claim 6, wherein the viscosity of the composition is about 25,000 to about 100,000 centipoise.
 8. The method of claim 6, wherein the viscosity of the composition is about 30,000 to about 50,000 centipoise.
 9. The method of claim 6, wherein said active ingredient comprises at least one of cetylpyridinium chloride, dicalcium phosphate dehydrate, hydrogen peroxide, sanguinaria extract, sodium bicarbonate, sodium lauryl sulfate, sodium fluoride, stannous fluoride, zinc salts, alkyl dimethyl amine oxide, alkyl dimethyl glycine, eucalyptol, menthol, methyl salicylate, thymol, sodium citrate, peppermint oil, sage oil, polymethylsiloxane, polxamer, and stannous pyrophosphate.
 10. The method of claim 6, wherein the composition comprises a plurality of active ingredients for orthodontia care.
 11. A method of providing orthodontia care, the method comprising the steps of: providing a composition within a container, wherein the composition includes a plurality of active ingredients and is configured to maintain contact with a surface for an extended period of time; and selectively applying the composition to a surface in connection with orthodontia care.
 12. The method of claim 11, wherein the viscosity of the composition is about 25,000 to about 100,000 centipoise.
 13. The method of claim 11, wherein the viscosity of the composition is about 30,000 to about 50,000 centipoise.
 14. The method of claim 11, wherein said active ingredient comprises at least one of cetylpyridinium chloride, dicalcium phosphate dehydrate, hydrogen peroxide, sanguinaria extract, sodium bicarbonate, sodium lauryl sulfate, stannous fluoride, zinc salts, alkyl dimethyl amine oxide, alkyl dimethyl glycine, eucalyptol, menthol, methyl salicylate, thymol, sodium citrate, peppermint oil, sage oil, polymethylsiloxane, polxamer, and stannous pyrophosphate.
 15. The method of claim 11, wherein said selectively applying step is performed before an extended period of rest.
 16. The method of claim 11, wherein the step of providing a composition within a container comprises providing a container including a removable cap and a removable spout.
 17. The method of claim 11, wherein the step of providing a composition within a container comprises providing a composition including about 0.001 weight percent to about 1 weight percent cetylpyridinium chloride and about 0.001 weight percent to about 1.5 weight percent zinc gluconate. 